CN103648940A

CN103648940A - A reeling apparatus for coiling tubes

Info

Publication number: CN103648940A
Application number: CN201180070486.0A
Authority: CN
Inventors: J·萨托拉
Original assignee: Luvata Espoo Oy
Current assignee: Nobel And Daaotuo Copper (zhongshan) Co Ltd
Priority date: 2011-04-28
Filing date: 2011-04-28
Publication date: 2014-03-19
Anticipated expiration: 2031-04-28
Also published as: EP2702001B1; CN103648940B; WO2012146293A1; JP2014514995A; MX344233B; US9376288B2; JP5798239B2; EP2702001A1; MX2013012495A; PL2702001T3; MY166273A; US20140145023A1

Abstract

The invention relates to a reeling apparatus (1) and a method for coiling a tube using the apparatus. The apparatus is configured to coil a tube (5), and comprises a main reel (2) connected to a spindle (3) and configured to rotate around a central axis (C), a tube holding ring (4) configured to rotate together with the main reel and to collect an initial part of the tube, a guide element (6) at a distance (d2) from the main reel to guide the tube to the apparatus. The tube holding ring is located outside and at a radial distance (d1) from the main reel with respect to the central axis, and the guide element is movable between an outer position (A) for guiding the tube to be coiled onto the tube holding ring, and an inner position (B) for guiding the tube to be coiled onto the main reel.

Description

Winding apparatus for rolling tube

Technical field

The present invention relates to according to the winding apparatus of the characteristic of claim 1.The invention still further relates to a kind of according to the method for rolling tube of the characteristic of claim 9 and use the method for the purposes of clean pipe.

Background technology and prior art

The manufacture of cable, wire rod and pipe is preferably to finish dealing with continuously, and wherein cable, wire rod or pipe are processed during can or reeling before reeling.Process operation and can utilize plastic jacket cover cable or pipe is annealed, etc.Importantly can process operation in unbroken mode, to keep quality and avoid defect.In addition,, if can be incorporated at the first initial length of cable, wire rod or pipe realization in the short period within (merge) from treatment facility for the treatment of the normal running (operation) conditions of operation, the manufacturing cost of every mitron will be lower.The first initial length of cable, wire rod or pipe is usually faulty, and may before transporting the pipe being wound, remove.

Many times, after the processing operation of cable, wire rod or pipe (hereinafter referred to pipe), reel and process or be wound around processing.Main drum or bobbin rolling tube by around rotating, can be wound on pipe in winding apparatus.Can pipe be directed to winding apparatus by different modes.For example, by using lead arm or induction element, described lead arm or induction element are positioned at the end of manufacturing line, be positioned near winding apparatus, but with main drum in a distance.Induction element is for guiding from manufacturing line pipe towards main drum.

The initial portion of pipe is comprised of faulty pipe conventionally, need to be from the supervisor or the production tube that are transported to user are removed to faulty pipe.By introduce the separation that flange is realized the initial portion of pipe on reel or bobbin after faulty initial portion is wound on main drum.Pipe is preferably reeled around flange, makes to reel can continue and do not interrupt manufacturing and process.Finally, or even during reel processing, the initial portion of pipe can for example be removed by cutting.

For some application, need to when finishing, operational processes clean pipe.The inside that some national requirements is used in the hollow tube in a/c system for example there is no oils residue.During this clean can and/or coiling by the processing at pipe of pipe, for example, with gas (being preferably hot gas, nitrogen) purge pipe, realize.This this can realize by gas conduit being attached to the end of processed pipe.Then, gas can flow through pipe when managing processed and coiling.

The pipe being wound can have the length of some kms and the weight of hundreds of kilograms.For purge gas is by long like this pipe, gas must have higher pressure.Relatively high gaseous tension can be for the not too little pipe of diameter.But when the diameter of pipe becomes too hour, tube wall may break when gaseous tension becomes too high.This problem solves by reducing the length of pipe.For example, can manufacture two or more wire coils, wherein the length of each wire rod circle and weight be original pipe for example half or 1/3rd.

Before being transported to client, two volumes can be wound and be stacked on over each other.The coiling of the first pipe can be undertaken by conventional method, wherein by the defective part of pipe being wound under the flange on the main drum that is positioned at winding apparatus and the imperfect or defective initial portion of separator tube.Then, the remainder of pipe can be wound on flange.Pressure gas can be attached to the first pipe by transom.At the first volume, around the ending of processing, can on the first wire coil, process the second pipe by the second pipe is placed on.The faulty initial portion of the second wire coil will arrive winding apparatus, and need to be concentrated and separated with the remainder of wire coil.Then, gas conduit can be attached to this second pipe, and after this, can on the first pipe of winding, roll up by wound skein product.The initial portion of the second pipe is between the first wire coil and the second wire coil.Need to before transporting, remove faulty initial portion.Cannot use flange, because also need to remove or separated these flanges before transporting.Promote the second pipe of heavy winding so that removal initial portion and/or flange are not real selections.The initial portion of separated the second pipe before need to being wound up in the base portion of the second pipe on the first wire coil.This separation need to complete during the continuous handling of the second pipe is processed.

Prior art

Description of the Prior Art can be for some equipment of the initial portion of separator tube during the coiling of pipe.

US3,625,448 have described a kind of method for the cable of reeling, and wherein the initial portion of cable is separated from the base portion of cable by guide faulty part on the independent reel coaxial with main drum.First cable is attached in main drum by groove, is then wound onto on independent reel, until flawless cable arrives from operational processes.Then, guiding device is directed to cable on main drum by crooked cable, and wherein this guiding device comprises the eyelet being positioned on independent reel, and cable is through this eyelet.This processing requirements cable is enough flexible, to can be bent 180 degree nearly.The cable of winding removes by first removing main drum.Then, can remove from independent reel the initial portion of cable.

GB902712 has also described a kind of method and apparatus for wound skein product, wherein by the initial portion of wire rod being wound on independently with the initial portion of wire rod is separated from basic wire on axial winding drum.Wire rod is attached to independent reel.When good wire rod arrives, use guide member is by wire guide to the main drum of flange top, and this guide member is positioned at device external, and makes wire rod axially move to main drum from independent reel.Pin on separating flanges is for " catching " wire rod at flange, and wire rod is wound onto on main drum afterwards.Equally, by removing main drum, first remove wire rod.Then, can remove from independent reel the initial portion of wire rod.

US3,620,482 have described a kind of equipment, and this equipment has the independent reel being co-axially mounted on main drum, and wherein these reels separate by flange.Wire rod is attached to independent reel and directed by being attached to the band of round machine (traverse machine).This equipment is used flange equally.Before wire rod is wound up on reel, guide member makes wire rod become to be looped back to round machine.Wire rod is must be enough flexible, so that with 180 angle Cheng Huan that spend nearly.

These equipment are not suitable for the initial portion of separated the second pipe during operational processes, and wherein pipe is wound and is stacked on the pipe being first wound.As mentioned above, preferably avoid using flange.In these structures, gas conduit may be attached to pipe hardly.In addition, the equipment of prior art is horizontal orientation, and the coiling of pipe of the present invention and stackingly preferably complete with vertically-oriented equipment.Swan-neck is not always possible.

Summary of the invention

The object of the invention is to develop such winding apparatus and method for winding, wherein, during operational processes, can be in the following manner that the initial portion of pipe is separated from the remainder of pipe: the defective initial portion of rolling tube, make it possible to easily from the initial portion of the remainder separator tube of pipe, and also allow another kind of operation simultaneously, for example, clean.

Another object is to provide a technical scheme that is relatively easy to structure, preferably by adjusting existing winding apparatus.

Another object is to provide a kind of equipment, wherein, before reeling, does not need pipe to be attached on reel, and does not wherein need to use groove, pin and round machine that pipe is wound on reel.

Another object is to provide a kind of equipment, wherein easily separation and the initial portion that removes pipe.

Another object is to provide a kind of equipment, and wherein, transom can be attached to pipe so that during the processing of pipe and reeling, make gas by pipe to clean.

Above-mentioned purpose realizes by the equipment limiting at the beginning, described equipment be characterised in that pipe retaining ring be positioned at main drum outside and with respect to central axis with main drum at a distance of a radial distance, and induction element can be for being directed to pipe to be spooled the external position of managing in retaining ring and for pipe to be spooled is directed between the interior location on main drum and is moved.Pipe retaining ring can be arranged on existing winding apparatus.The structure of ring also can be relatively simple.

When pipe arrives pipe retaining ring, transom can be attached to the end of pipe.Then, start to reel, when flawless pipe arrives, induction element moves to interior location by pipe simply, make can be on main drum rolling tube.

In one embodiment, between main drum and pipe retaining ring, there is annular space.This annular space contributes to Guan Congguan retaining ring to be transported to main drum.

In another embodiment, moving member is used for making induction element externally between position and interior location, to move.This moving member can be positioned at the outside of winding apparatus.Moving member will promote the motion of induction element.Motion even can be by carrying out automation with computer-controlled processing or Programmable Logic Controller.

In another embodiment, this equipment comprises the transom of the end that is configured to be attached to pipe to be spooled.In one embodiment, transom is attached to gas reservoir.Transom provides for pressure gas holder being connected to the compliant member of described pipe.In another embodiment, transom is attached to the end of pipe, and gas can be cleaned by pipe from holder.During rolling tube, transom can rotate or can not rotate.In another embodiment, transom can be connected to the end of pipe rotatably.

In selectable embodiment, central axis extends vertically.

Above-mentioned purpose also realizes by the method limiting at the beginning, and described method is characterised in that the method comprises the following steps :-around central axis rotation main drum and pipe retaining ring;-pipe of bootstrap element receives pipe retaining ring in the future;-initial portion of pipe is wound in pipe retaining ring;-when flawless pipe arrives from induction element, make induction element from external position, move to interior location with respect to the position of central axis; And ,-pipe is wound up on main drum.The method can be used in continuous processing.Do not need to interrupt processing.Pipe needn't be attached to groove or pin is upper, also needn't be bent the initial portion with the remainder separator tube from pipe.

In one embodiment, the initial portion of pipe is wound on pipe retaining ring in before, transom is attached to the end of pipe.Can interrupt processing or reducing the speed of processing, so as before the main portion of rolling tube the defective or initial part of separator tube.

In another embodiment, reeling the second pipe (5) afterwards, the initial portion of cutting pipe.Comprise that two or more bag that is stacked on wire rod circle over each other can be transported to client.

In another embodiment, purge of gas is by pipe.

In yet another embodiment, during whole coiling is processed, purge of gas is by pipe.Can clean pipe, to use different gas to remove oils residue from the inside face of pipe.By using nitrogen, can effectively remove oils residue.In selectable embodiment, gas is nitrogen.

The pipe of similar copper pipe can be annealed before being wound.The initial portion of this pipe is hard, and need to be separated with the soft annealed remainder of pipe.In one embodiment, not annealed pipe is wound in pipe retaining ring, and annealed pipe is wound on main drum.

Method of the present invention is particularly useful for processing and the pipe of winding diameter below 15mm.By shortening the length of wire rod circle and using method of the present invention, can prevent such tracheal rupture.

In another embodiment, the diameter of pipe is below 15mm.

This new method is suitable for two or more wire coils to be wound up into over each other, and this is because the defective initial portion of pipe can not be located between stacking wire coil.

In yet another embodiment, pipe is wound on the first pipe of winding.

The present invention also relates to a kind of said method for the purposes of clean pipe.

Accompanying drawing explanation

By describing various embodiment and further explaining the present invention with reference to accompanying drawing.

Fig. 1 shows winding apparatus and pipe retaining ring.

Fig. 2 shows birds-eye view, lateral plan and three-dimensional (3D) view of pipe retaining ring.

Fig. 3 shows pipe is wound on to winding apparatus and the induction element of pipe during retaining ring.

Fig. 4 shows winding apparatus, and wherein induction element is moved to position B from position A.

Fig. 5 shows winding apparatus, and wherein induction element is positioned at position B, and starts to reel on main drum.

The specific embodiment

Fig. 1 and 3 shows equipment 1, and wherein central axis C is vertically extended.Main drum 2 is connected to the main shaft 3 of equipment 1.Main drum 2 is attached to main shaft 3 by attachment component (not shown), and is configured to rotate around central axis C.Central axis C can extend upward in different sides.

As shown in Figure 3, pipe retaining ring 4 is positioned at outside, and with respect to central axis C and main drum 2 radial distance d1.Pipe retaining ring 4 is configured to rotation together with main drum 2.Fig. 2 shows upper view (A), lateral plan (B) and the 3-D view (C) of pipe retaining ring 4.Pipe retaining ring 4 can be at pipe the initial portion of collecting tube 5 in the open spaces above retaining ring 4.Annular space P between reel 2 shown in Fig. 3 and pipe retaining ring 4 provides pipe 5 has been moved to the required space of main drum 2 from pipe retaining ring 4.Can provide interior ring 10, pipe 5 is remained in pipe retaining ring 4.Semicircle 13 on top on winding apparatus 1 (part for its structure 12 that is equipment 1) can assist pipe 5 to move to the interior location B shown in Fig. 5 from the external position A shown in Fig. 5.Pipe retaining ring 4 can be configured so that it can be along central axis C up-and-down movement.Hydraulic lift 11 can be used for this function.Like this, pipe retaining ring 4 can be moved along central axis C by the height at the pipe 5 being wound during reeling when central axis C is extended.

Induction element 6 is positioned to and main drum 2 distance d2 with respect to central axis C.Induction element 6 is configured for described pipe 5 is directed to equipment 1.Induction element 6 can will be winding to the external position A of the described pipe 5 of pipe in retaining ring 4 and move being winding between the interior location B of the described pipe 5 on main drum 2 for guiding for guiding.

Induction element 6 comprises moving member 7 (symbolically shown in Figure 3), and it is for externally moving induction element 6 between position A and interior location B.Moving member 7 can be any parts for mobile induction element 6, for example hydraulic actuating cylinder or air cylinder.

For example, if gas (nitrogen) will be cleaned by managing 5, need between pipe 5 and pressure gas holder 8, connect.This connection can be used transom 9 to set up.This transom 9 can be the end of pipe 5 to be connected to any parts of holder 8, for example, be attached to the holder of conduit.Preferably, transom 9 is flexible, and it can be rotated during rolling tube 5 together with pipe 5.

The present invention also relates to a kind of method for rolling tube 5.Can be from pipe 5 be placed in basket for making to manage the operational processes (not shown) of 5 annealing.From described basket, before pipe 5 enters annealing furnace, pipe 5 is first by the pinch roller of the part as alignment unit.In annealing furnace, by means of induction coil heating pipe 5, so that pipe 5 deliquescing.After annealing, pipe 5, by stacking area, in stacking area, utilizes water composite cooling pipe 5, and dries up pipe 5 with air (air-wiped).By after tensioner, utilize induction element 6 that pipe 5 is supplied to winding apparatus 1.

When with purge of gas pipe 5, the end of pipe 5 can be used transom 9 to be connected to gas reservoir 8.Gas reservoir 8 is preferably fixing, and is positioned to winding apparatus 1 at a distance of a distance.Transom 9 can be attached to the end of pipe 5 before the initial portion of rolling tube 5.Gas flows the direction along contrary with operational processes, and pollutants (for example oils residue) is in another end evaporation of pipe 5.Gas can clean by pipe 5 during whole coiling is processed.

The initial portion of the first pipe (wire coil) 5 comprises hard unannealed pipe 5, and can this initial portion be separated by this initial portion being wound under flange (not shown).When soft pipe 5 arrives winding apparatus 1, pipe 5 is wound on flange.After first pipe 5 of reeling, the second hard unannealed pipe 5 arrives winding apparatus.Transom 9 can be attached to pipe 5.First induction element 6 is positioned in external position A, so that guiding tube 5 enters in pipe retaining ring 4.Then, the initial portion of pipe 5 is wound onto in pipe retaining ring 4.The length of this initial portion of pipe 5 can be approximately 20 to 30 meters.Once soft annealed pipe 5 arrives winding apparatus 1, induction element 6 moves to interior location B from external position A.For this reason, can use computer program, this computer program starts for example shifts induction element 6 onto the air cylinder of interior location B.Startup time can be predetermined, and for example Startup time depends on the number of turns of the rotation of main shaft 3.Equally, can pre-determine induction element 6 with respect to the angle of central axis C motion.

Then, soft annealed pipe 5 can be wound up on the first wire rod circle.After second pipe 5 of reeling, can remove transom 9, and can remove from winding apparatus 1 pipe 5 of stacking winding, and be transported to client.

Use winding apparatus 1 as above, described method can comprise the following steps:

Around central axis C rotation main drum 2 and pipe retaining ring 4;

Pipe 5 is received pipe retaining ring 4 from induction element 6;

The initial portion of pipe 5 is wound in pipe retaining ring 4;

When the pipe 5 of zero defect (unflawed) arrives from induction element 6, with respect to central axis C, the position of induction element 6 is moved to interior location B from external position A;

Pipe 5 is wound up on main drum 2.

Good or flawless pipe 5 is defined as not managing the base portion of pipe 5 of the defect of 5 initial portion.In other words, flawless pipe 5 is to be transported to the part of client's pipe 5.

Although not necessarily, in pipe 5 initial portion is wound on to pipe retaining ring 4 after, can disconnect member 9 from managing 5.Can stop manufacturing line, then that pipe 5 initial portion is separated from managing 5 remainder, for example by cutting, manage 5.Then, before annealed (good) pipe 5 is wound on main drum 2, transom 9 can be attached to again to pipe 5.

Method of the present invention is specially adapted to small-sized pipe 5, and for example diameter is below 20 millimeters or below 15 millimeters or below 10 millimeters or at the copper pipe 5 below 8 millimeters.The diameter of pipe 5 can be between 2 to 20 millimeters.The wall thickness of pipe 5 can be about 0.10 to 1.0 millimeter, or below 0.7 millimeter or below 0.5 millimeter, or below 0.3 millimeter.

Pipe 5 length and weight will depend on the material of pipe and diameter and the wall thickness of pipe 5 to be spooled.Only as example, pipe 5 for diameter between 2 to 20 millimeters or under 15 millimeters, the length of copper pipe 5 can be between 2 and 50 kms (km) or below 10 kms or at 7 kms, and weight is between 100 to 1000 kilograms (kg) or below 500 kilograms or below 400 kilograms.

This method can be advantageously used in clean pipe 5, particularly from managing 5 clean oils residues.The pipe 5 of having reeled in the manner described above and having cleaned can comprise the oils residue that is less than every meter 0.2 or 0.1 milligram (mg) in pipe 5.

Claims

1. a winding apparatus (1), described winding apparatus is configured to pipe (5) to be wound up on reel (2), described winding apparatus (1) comprising: main drum (2), described main drum is connected to the main shaft (3) of described winding apparatus (1), and is constructed to be permeable to rotate around central axis (C), pipe retaining ring (4), described pipe retaining ring is configured to rotate and collect together with main drum (2) initial portion of described pipe (5), and induction element (6), described induction element is positioned to main drum (2) at a distance of a distance (d2) with respect to central axis (C), and be configured to pipe (5) to be directed to described winding apparatus (1), it is characterized in that, described pipe retaining ring (4) with respect to central axis (C) be positioned at described main drum (2) outside and with described main drum at a distance of a radial distance (d1), and described induction element (6) can be for being directed to pipe to be spooled (5) external position (A) on pipe retaining ring (4) and for pipe to be spooled (5) being directed to motion between the interior location (B) on main drum (2).

2. winding apparatus as claimed in claim 1 (1), is characterized in that, between described main drum (2) and described pipe retaining ring (4), has annular space (P).

3. as the winding apparatus of claim 1 or 2 (1), it is characterized in that, moving member (7) for moving described induction element (6) between described external position and interior location (A, B).

4. as the winding apparatus of any one in claim 1 to 3 (1), it is characterized in that, described winding apparatus (1) also comprises transom (9), and described transom is configured to be attached to the end of pipe to be spooled (5).

5. winding apparatus as claimed in claim 4 (1), is characterized in that, described transom (9) is attached to gas reservoir (8).

6. winding apparatus as claimed in claim 5 (1), is characterized in that, described transom (9) is attached to the end of described pipe (5), and gas can be cleaned by described pipe (5) from holder (8).

7. as the winding apparatus of any one in claim 4 to 6 (1), it is characterized in that, described transom (9) can be connected to the end of described pipe (5) rotatably.

8. as the winding apparatus of any one in claim 1 to 7 (1), it is characterized in that, described central axis (C) extends vertically.

9. for using a method of coming rolling tube (5) according to the winding apparatus of any one of claim 1 to 8 (1), it is characterized in that, said method comprising the steps of:

-around central axis (C) rotation main drum (2) and pipe retaining ring (4);

-will manage (5) to receive pipe retaining ring (4) from induction element (6);

-initial portion of managing (5) is wound in pipe retaining ring (4);

-when flawless pipe (5) arrives from induction element (6), make the position of induction element (6) from external position (A), move to interior location (B) with respect to central axis (C); And

-will manage (5) to be wound up on main drum (2).

10. method as claimed in claim 9, is characterized in that, in the initial portion of managing (5) being wound on to pipe retaining ring (4) before, transom (9) is attached to the end of pipe (5).

11. as the method for claim 9 or 10, it is characterized in that, is reeling the second pipe (5) afterwards, and the initial portion of pipe (5) is cut.

12. as the method for any one in claim 10 or 11, it is characterized in that, purge of gas is by pipe (5).

13. as the method for any one in claim 10 or 11, it is characterized in that, during whole coiling is processed, purge of gas is by pipe (5).

14. as the method for claim 12 and 13, it is characterized in that, gas is nitrogen.

15. as the method for any one in claim 9 to 14, it is characterized in that, unannealed pipe (5) is wound onto in pipe retaining ring, and annealed pipe (5) is wound onto on main drum (2).

16. as the method for any one in claim 9 to 15, it is characterized in that, the diameter of pipe (5) is below 15 millimeters.

17. as the method for any one in claim 9 to 16, it is characterized in that, pipe (5) is wound onto on the first pipe (5) being wound.

18. are used for clean purposes of managing (5) according to the method for any one in claim 9 to 17.